TY - JOUR T1 - Genome-wide dynamics of RNA synthesis, processing and degradation without RNA metabolic labeling JF - bioRxiv DO - 10.1101/520155 SP - 520155 AU - Mattia Furlan AU - Eugenia Galeota AU - Nunzio Del Gaudio AU - Erik Dassi AU - Michele Caselle AU - Stefano de Pretis AU - Mattia Pelizzola Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/09/20/520155.abstract N2 - The kinetic rates of RNA synthesis, processing and degradation determine the dynamics of transcriptional regulation by governing both the abundance and the responsiveness to modulations of premature and mature RNA species. The study of RNA dynamics is largely based on the integrative analysis of total and nascent transcription, with the latter being quantified through RNA metabolic labeling. We describe here INSPEcT-, a computational method based on mathematical modeling of intronic and exonic expression, able to derive the dynamics of transcription from steady state or time course profiling of just total RNA, without requiring any information on nascent transcripts. Our approach closely recapitulates the kinetic rates obtained through RNA metabolic labeling, improves the ability to detect changes in transcripts half-lives, reduces the cost and complexity of the experiments, and can be adopted to study experimental conditions where nascent transcription cannot be readily profiled. Finally, we applied INSPEcT- to the characterization of post-transcriptional regulation landscapes in dozens of physiological and disease conditions. This approach was included in the INSPEcT Bioconductor package, which can now unveil RNA dynamics from steady state or time course data, with or without the profiling of nascent RNA. ER -